Capacitive Touch Panel

1. A capacitive touch panel comprising: a plurality of detection electrodes S(n) disposed at equal intervals in a direction of detection on an insulating panel; a detection voltage generation circuit for generating an AC detection voltage; drive electrodes disposed to be insulated from the plurality of detection electrodes S(n); a drive control unit for applying a detection voltage to the drive electrodes; electrode select means for selecting a particular detection electrode S(n) sequentially from the plurality of detection electrodes S(n); capacitance detection means for detecting a detection voltage level R(n) of a detection voltage appearing on a detection electrode S(n) selected by the electrode select means; and position detection means for identifying a detection electrode S(n) from the plurality of detection electrodes S(n), the detection electrode S(n) having a detection voltage level R(n) varied due to a change in capacitance between the selected detection electrode S(n) and a drive electrode in a vicinity thereof to which the detection voltage is applied, the change being caused by an input operation object approaching the detection electrode S(n), the position detection means detecting an input operation position of the input operation object from a position at which the identified detection electrode S(n) is disposed in the direction of detection on the insulating panel, wherein the electrode select means allocates the plurality of detection electrodes S(n) to any one of two or more detection electrode groups SG(k) including a first detection electrode group and a second detection electrode group so that the detection electrodes S(n) allocated to each detection electrode group SG(k) are disposed at equal intervals and spaced apart from each other at least by one detection electrode S(n) in the direction of detection, and, in each of the two or more detection electrode groups SG(k), sequentially selects the detection electrodes S(n) allocated to the detection electrode group SG(k) in the direction of detection by sequentially selecting all the detection electrodes allocated to the second detection electrode group in the direction of detection after sequentially selecting all the detection electrodes allocated to the first detection electrode group in the direction of detection; and the position detection means makes a comparison between detection voltage levels R(n) each appearing on a set of detection electrodes S(n) and S(n+1) which are adjacent in the direction of detection to the detection electrode S(n) having a varied detection voltage level R(n), and identifies the detection electrode S(n) which is varied in detection voltage level R(n) by an approach of the input operation object.

2. The capacitive touch panel according to claim 1 , wherein the electrode select means alternately allocates the plurality of detection electrodes S(n) one by one to two types of detection electrode groups SG( 1 ) and SG( 2 ) in the direction of detection; and when the electrode select means selects the detection electrode S(n) allocated to one of the detection electrode groups SG( 1 ) and SG( 2 ), the drive control unit employs, as a drive electrode, at least either one of detection electrodes S(n−1) and S(n+1) which are allocated to another detection electrode group SG( 2 ) or SG( 1 ) and disposed on both the sides of the selected detection electrode S(n) in the direction of detection, and applies a detection voltage thereto.

3. A capacitive touch panel comprising: a plurality of detection electrodes S(n) disposed at equal intervals in a direction of detection on an insulating panel; a detection voltage generation circuit for generating an AC detection voltage; drive electrodes disposed to be insulated from the plurality of detection electrodes S(n); a drive control unit for applying a detection voltage to the drive electrodes; electrode select means for selecting a particular detection electrode S(n) sequentially from the plurality of detection electrodes S(n); capacitance detection means for detecting a detection voltage level R(n) of a detection voltage appearing on a detection electrode S(n) selected by the electrode select means; and position detection means for identifying a detection electrode S(n) from the plurality of detection electrodes S(n), the detection electrode S(n) having a detection voltage level R(n) varied due to a change in capacitance between the selected detection electrode S(n) and a drive electrode in a vicinity thereof to which the detection voltage is applied, the change being caused by an input operation object approaching the detection electrode S(n), the position detection means detecting an input operation position of the input operation object from a position at which the identified detection electrode S(n) is disposed in the direction of detection on the insulating panel, wherein the electrode select means allocates the plurality of detection electrodes S(n) to any one of two or more detection electrode groups SG(k) so that the detection electrodes S(n) allocated to each detection electrode group SG(k) are disposed at equal intervals and spaced apart from each other at least by one detection electrode S(n) in the direction of detection, and, in each of the two or more detection electrode groups SG(k), sequentially selects the detection electrodes S(n) allocated to the detection electrode group SG(k) in the direction of detection; the position detection means makes a comparison between detection voltage levels R(n) each appearing on a set of detection electrodes S(n) and S(n+1) which are adjacent in the direction of detection to the detection electrode S(n) having a varied detection voltage level R(n), and identifies the detection electrode S(n) which is varied in detection voltage level R(n) by an approach of the input operation object; the electrode select means alternately allocates the plurality of detection electrodes S(n) one by one to two types of detection electrode groups SG( 1 ) and SG( 2 ) in the direction of detection; when the electrode select means selects the detection electrode S(n) allocated to one of the detection electrode groups SG( 1 ) and SG( 2 ), the drive control unit employs, as a drive electrode, at least either one of detection electrodes S(n−1) and S(n+1) which are allocated to another detection electrode group SG( 2 ) or SG( 1 ) and disposed on both the sides of the selected detection electrode S(n) in the direction of detection, and applies a detection voltage thereto; and the drive control unit applies an inverted detection voltage having an opposite phase with respect to the detection voltage to at least one of the detection electrodes S(n).

4. The capacitive touch panel according to claim 3 , wherein with at least either one of the detection electrodes S(n−1) and S(n+1) employed as a drive electrode, the drive control unit applies the inverted detection voltage having an opposite phase with respect to the detection voltage to at least either one of detection electrodes S(n−2) and S(n+2) which are allocated to one of the detection electrode groups SG( 1 ) and SG( 2 ) and disposed on both the sides of the detection electrodes S(n−1) and S(n+1) in the direction of detection.

5. The capacitive touch panel according to claim 2 , wherein when the electrode select means selects a detection electrode S(n) allocated to one of the detection electrode groups SG( 1 ) and SG( 2 ), the drive control unit employs, as a drive electrode, at least either one of detection electrodes S(n+1) and S(n+3) which are allocated to the other detection electrode group SG( 2 ) or SG( 1 ) and disposed on both the sides along the direction of detection of a detection electrode S(n+2) to be selected subsequent to the selected detection electrode S(n), and applies a detection voltage thereto.

6. The capacitive touch panel according to claim 3 , wherein with at least either one of the detection electrodes S(n+1) and S(n+3) employed as a drive electrode, the drive control unit applies the inverted detection voltage having an opposite phase with respect to the detection voltage to at least either one of detection electrodes S(n+2) and S(n+4) which are allocated to one of the detection electrode groups SG( 1 ) and SG( 2 ) and disposed on both the sides of the detection electrode S(n+3) in the direction of detection.

7. The capacitive touch panel according to claim 1 , wherein the electrode select means operates in either one mode selectable from a typical mode of operation in which the detection electrodes S(n) allocated to two or more detection electrode groups SG(k) are sequentially selected in each of the detection electrode groups SG(k) in the direction of detection and a high-speed mode of operation in which the detection electrodes S(n) allocated to only any one of the detection electrode groups SG(k) are sequentially selected in the direction of detection.

8. A capacitive touch panel comprising: a plurality of detection electrodes S(n) which are disposed on an insulating panel in a second direction orthogonal to a first direction so as to be at equal intervals in the first direction; a detection voltage generation circuit for generating an AC detection voltage; a plurality of drive regions DV(m) which are disposed in the first direction so as to be at equal intervals in the second direction of the insulating panel, the drive regions DV(m) intersecting all the plurality of detection electrodes S(n) with an insulation separation therebetween; a drive control unit for selecting a particular drive region DV(m) from the plurality of drive regions DV(m) and applying a detection voltage to the selected drive region DV(m); electrode select means for selecting a particular detection electrode S(n) sequentially from the plurality of detection electrodes S(n); capacitance detection means which, when the drive control unit applies the detection voltage to the selected drive region DV(m), detects a detection voltage level R(n, m) of a detection voltage appearing on the detection electrode S(n) selected by the electrode select means; and position detection means for identifying, from the plurality of detection electrodes S(n), a detection electrode S(n) of which detection voltage level R(n, m) is varied due to a change in capacitance caused by an approach of an input operation object between the selected detection electrode S(n) and the drive region DV(m) in a vicinity thereof to which the detection voltage is applied, the position detection means detecting an input operation position in the first direction and the second direction of the input operation object from a position (n) at which the identified detection electrode S(n) is disposed in the first direction on the insulating panel and a position (m) at which the drive region DV(m) with the detection voltage applied thereto is disposed in the second direction on the insulating panel, wherein the electrode select means allocates the plurality of detection electrodes S(n) to any one of two or more detection electrode groups SG(k) including a first detection electrode group and a second detection electrode group so that the detection electrodes S(n) to be allocated to each of the detection electrode groups SG(k) are disposed at equal intervals and spaced apart from each other by at least one detection electrode S(n) in the first direction, and sequentially selects, in each of the two or more detection electrode groups SG(k), the detection electrodes S(n) allocated to the detection electrode group SG(k) in the first direction by sequentially selecting all the detection electrodes allocated to the second detection electrode group in the first direction after sequentially selecting all the detection electrodes allocated to the first detection electrode group in the first direction; and the position detection means compares the detection voltage levels R(n, m) appearing on each of a set of detection electrodes S(n) and S(n+1) adjacent to each other in the first direction, the detection electrode S(n) having a varied detection voltage level R(n, m), and identifies a detection electrode S(n) of which detection voltage level R(n, m) is varied by the input operation object approaching the detection electrode S(n).

9. The capacitive touch panel according to claim 8 , wherein the electrode select means operates in either one mode selectable from a typical mode of operation in which the detection electrodes S(n) allocated to two or more detection electrode groups SG(k) are sequentially selected in each of the detection electrode groups SG(k) in the first direction and a high-speed mode of operation in which the detection electrodes S(n) allocated to only any one of the detection electrode groups SG(k) are sequentially selected in the first direction.